Jean-Guy Berrin (@jgberrin) 's Twitter Profile
Jean-Guy Berrin

@jgberrin

Group leader @INRAE @BBFlab #Marseille #Fungal_enzymes #CAZymes #LPMO #Fungal_biology #Cell_Wall #Bioeconomy Views are my own

ID: 3218879747

calendar_today28-04-2015 21:17:10

1,1K Tweet

649 Followers

164 Following

OxyMiST (@oxymist_nnf) 's Twitter Profile Photo

Join the Oxymist team! PhD Fellowship in Ecology and Carbon Dynamics, at the University of Copenhagen (DK). Additional information, contact and application via the link: employment.ku.dk/phd/?show=1620… Please RT📣

Académie des sciences (@acadsciences) 's Twitter Profile Photo

🧵1/5 À l’approche des législatives l’Académie des sciences rappelle l'importance de garantir l'accès de tous aux sciences via l'enseignement et les médias libres. Afin de relever les défis du climat🌍, de la biodiversité🦎, de l'IA🤖, de la sécurité alimentaire🌾et de la santé🩺

🧵1/5 À l’approche des législatives l’Académie des sciences rappelle l'importance de garantir l'accès de tous aux sciences via l'enseignement et les médias libres. Afin de relever les défis du climat🌍, de la biodiversité🦎, de l'IA🤖, de la sécurité alimentaire🌾et de la santé🩺
vilaplana_grup 🏳️‍🌈🎼🍏🌾 (@grupvilaplana) 's Twitter Profile Photo

Our latest publication shows that aspen xylan is more complex than we thought and how this may impact cellulose and lignin in wood 🌳KTH Royal Institute of Technology BioUPGRADE Treesearch Umeå Plant Science Centre (UPSC) Unraveling unique structural motifs of aspen xylan #glycotime sciencedirect.com/science/articl…

Our latest publication shows that aspen xylan is more complex than we thought and how this may impact cellulose and lignin in wood 🌳<a href="/KTHuniversity/">KTH Royal Institute of Technology</a> <a href="/bioupgrade_eu/">BioUPGRADE</a> <a href="/TREESEARCH_se/">Treesearch</a> <a href="/UmeaPlantSci/">Umeå Plant Science Centre (UPSC)</a> Unraveling unique structural motifs of aspen xylan #glycotime sciencedirect.com/science/articl…
DiversifyCAZymes (@diversecazymes) 's Twitter Profile Photo

We are close to 50 #CAZy researchers on the #DiversifyCAZymes list! Please consider signing up if you identify with an under-represented group. This list is shared with conference organisers and we encourage recruitment committees to check it out as well.

Jean-Guy Berrin (@jgberrin) 's Twitter Profile Photo

📣Two new publications with @INRAE colleagues #LPMO BBF_Marseille FARE lab INRAE TRANSFORM FoodBioprodWasteEng @_3BCAR In situ imaging of LPMO action on plant tissues sciencedirect.com/science/articl… Action of AA9 LPMOs on different cellulose allomorphs sciencedirect.com/science/articl…

📣Two new publications with @INRAE colleagues #LPMO <a href="/BBF_lab/">BBF_Marseille</a>  <a href="/FARE_Reims/">FARE lab</a> <a href="/INRAE_TRANSFORM/">INRAE TRANSFORM FoodBioprodWasteEng</a> @_3BCAR 
In situ imaging of LPMO action on plant tissues sciencedirect.com/science/articl… 
Action of AA9 LPMOs on different cellulose allomorphs sciencedirect.com/science/articl…
FARE lab (@fare_reims) 's Twitter Profile Photo

🚨New paper! Great collaboration between FARE lab INRAE BIA BBF_Marseille and BIBS platform to image oxidative products at the cell scale as a result of #LPMO action on cellulose! INRAE ▶️shorturl.at/7nBid

🚨New paper! Great collaboration between <a href="/FARE_Reims/">FARE lab</a> <a href="/INRAE_BIA/">INRAE BIA</a> <a href="/BBF_lab/">BBF_Marseille</a> and BIBS platform to image oxidative products at the cell scale as a result of #LPMO action on cellulose!
<a href="/INRAE_France/">INRAE</a>
▶️shorturl.at/7nBid
Dr. Bree Urbanowicz (@breeannaurbano1) 's Twitter Profile Photo

We're hiring! I have a new position open to investigate carbohydrate barriers to bioprocessing at UGA's Complex Carbohydrate Research Center. #glycotime #plantbio #bioprocessing #cazymes

We're hiring! I have a new position open to investigate carbohydrate barriers to bioprocessing at UGA's Complex Carbohydrate Research Center. #glycotime #plantbio #bioprocessing #cazymes
David Navarro (@dnavarro75) 's Twitter Profile Photo

Last chance on Thursday 15 to meet BBF_Marseille and CIRM-Filamentous Fungi at 12th International Mycological Congress (IMC12)! After the poster SHIFT01-001 Agar Fungi-Bacteria coculture for new bacterial activities, there are still SHIFT02-368 Fungal bioremediation of creosote-treated wood, SHIFT02-172 Adaptation of wood decay fungi.

Last chance on Thursday 15 to meet <a href="/BBF_lab/">BBF_Marseille</a> and <a href="/CirmFungi/">CIRM-Filamentous Fungi</a> at <a href="/IMC12NL/">12th International Mycological Congress (IMC12)</a>! After the poster SHIFT01-001 Agar Fungi-Bacteria coculture for new bacterial activities, there are still SHIFT02-368 Fungal bioremediation of creosote-treated wood, SHIFT02-172 Adaptation of wood decay fungi.
DiversifyCAZymes (@diversecazymes) 's Twitter Profile Photo

📢 Still time to register for this year's FASEB Microbial Glycobiology 2024 ! ECRs: don't miss this chance for learning, networking, and career development. #glycotime #DiversifyCAZymes

Jean-Guy Berrin (@jgberrin) 's Twitter Profile Photo

A time-course analysis of Aspergillus terreus secretomes reveals the importance of pectin-degrading enzymes to increase the digestibility of soybean meal | Applied and Environmental Microbiology journals.asm.org/doi/full/10.11…

ACS Sustainable Journals (@acssustainable) 's Twitter Profile Photo

Design of Plastic Binding Lytic Polysaccharide Monooxygenases via Modular Engineering By Bastien Bissaro et al Bastien Bissaro @univamu #ACSEditorsChoice Open access in Chem & Bio Engineering 👉 go.acs.org/b1G

Design of Plastic Binding Lytic Polysaccharide Monooxygenases via Modular Engineering

By Bastien Bissaro et al <a href="/BastienBissaro/">Bastien Bissaro</a> @univamu #ACSEditorsChoice

Open access in Chem &amp; Bio Engineering 👉 go.acs.org/b1G
INRAE (@inrae_france) 's Twitter Profile Photo

#RP_INRAE Et si les champignons détenaient la clé du recyclage des plastiques ? Les champignons filamenteux possèdent des enzymes spécifiques pour dégrader le bois, une matière naturelle très récalcitrante comme les plastiques. Les scientifiques ont réussi à reprogrammer ces

#RP_INRAE Et si les champignons détenaient la clé du recyclage des plastiques ?

Les champignons filamenteux possèdent des enzymes spécifiques pour dégrader le bois, une matière naturelle très récalcitrante comme les plastiques. Les scientifiques ont réussi à reprogrammer ces
Dr. Bree Urbanowicz (@breeannaurbano1) 's Twitter Profile Photo

Check out our new collaborative review. supported by DOE Office of Science Enzymatic Routes to Designer Hemicelluloses for Use in Biobased Materials | JACS Au #glycotime pubs.acs.org/doi/full/10.10…

Alan Cartmell (@acartmell47) 's Twitter Profile Photo

Happy to have this deep dive into polysaccharide family 33 out: pnas.org/doi/10.1073/pn… We define features driving substrate specificity, catalytic mechanism, and evolutionary links with multiple lyases and epimerises #glycotime PNASNews

Bastien Bissaro (@bastienbissaro) 's Twitter Profile Photo

🔥🔥Hot off the press ! CAZymes power💪💪 #Glycotime So glad and honored I contributed to the study of this new class of enzymes ! Congrats to the whole team, especially to first author Clelton A. Santos and to project leader Mario Murakami - Structural Enzymology nature.com/articles/s4158…